Bioagent-mediated improvements in yield, soil nutrient availability, and leaf nutrition of banana (Musa spp.) cv. Grand Naine

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Published

2025-12-31

DOI:

https://doi.org/10.58993/ijh/2025.82.4.3

Keywords:

Organic carbon , available nutrients, leaf content, bio-fertilizes, banana
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Vol. 82 No. 04 (2025): Indian Journal of Horticulture

Section

Research Articles

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Copyright (c) 2026 Bhagyaresha Gajbhiye, Ramprasad N. Khandare, Sujata V. Dhutraj, Swati P. Zade, Snehal S. Shilewant

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This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Authors

  • Bhagyaresha Gajbhiye All India Network Project on Soil Biodiversity-Biofertilizers, Department of Soil Science, Vasantrao Naik Marathwada Krishi Vidyapeeth, Parbhani, Maharashtra 431402, India
  • Ramprasad N. Khandare Long Term Fertilizer Experiment, Department of Soil Science, Vasantrao Naik Maratwada Krishi Vidyapeeth, Parbhani -431402 (M.S.) India
  • Sujata V. Dhutraj Long Term Fertilizer Experiment, Department of Soil Science, Vasantrao Naik Maratwada Krishi Vidyapeeth, Parbhani -431402 (M.S.) India
  • Swati P. Zade Department of Horticulture, Banana Research Station, Nanded, Vasantrao Naik Maratwada Krishi Vidyapeeth, Parbhani -431402 (M.S.) India
  • Snehal S. Shilewant Department of Horticulture, Banana Research Station, Nanded, Vasantrao Naik Maratwada Krishi Vidyapeeth, Parbhani -431402 (M.S.) India

Abstract

To ascertain the impact of bioagents on the physico-chemical properties of the soil, nutrient availability and leaf nutrition of banana (Musa spp.) cv. Grand Naine, a research trial was conducted at the Banana Research Station, Nanded (M.S.), VNMKV, Parbhani, India from 2019–20 to 2020–21. The experiment was laid out in randomized block design with nine treatments namely 100% RDF (Control), 75% RDF + Soil application of Trichoderma harzianum, 75% RDF + Soil application of Azospirillum, 75% RDF + soil application of PSB, 75% RDF + soil application of Trichoderma harzianum + Azospirillum + PSB, 100% RDF + soil application of Trichoderma harzianum, 100% RDF + soil application of Azospirillum, 100% RDF + soil application of PSB and 100% RDF + soil application of Trichoderma harzianum + Azospirillum + PSB replicated three times. The results emerged out from experimental field stated maximum plant height, stem girth, number of leaves per plant and yield of banana was improved significantly by receiving 100% RDF + soil application of Trichoderma harzianum @ 25 g plant-1 + Azospirillum @ 25 g plant-1 + PSB @ 25 g plant-1. Similarly, soil pH, EC, organic carbon and calcium carbonate content were enhanced due to application 100% RDF + soil application of Trichoderma harzianum @ 25 g plant-1 + Azospirillum @ 25 g plant-1 + PSB @ 25 g plant-1 but soil pH and calcium carbonate content were not attained to the significant level due to application of different treatments. However, electrical conductivity of soil was found safe limit while, the highest organic carbon content, available N, P, K, DTPA- Fe, Zn, Cu and Mn were recorded maximum with application 100% RDF + soil application of Trichoderma harzianum @ 25 g plant-1 + Azospirillum @ 25 g plant-1 + PSB @ 25 g plant-1. During both years of the experiment, the highest N, P, K, Fe, Zn, Cu, and Mn nutritional content were also detected in banana leaves under the same treatment.

How to Cite

Gajbhiye, B., Khandare, R. N., Dhutraj, S. V., Zade, S. P., & Shilewant, S. S. (2025). Bioagent-mediated improvements in yield, soil nutrient availability, and leaf nutrition of banana (Musa spp.) cv. Grand Naine. Indian Journal of Horticulture, 82(04), 401–407. https://doi.org/10.58993/ijh/2025.82.4.3

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References

1. Chapman, H. D. 1960. Leaf and soil analysis in citrus orchards. Manual of University of California Division of Agricultural Science, Citrus experiment station Riverside. California. pp: 26 – 33.

2. Chhuria, S., Biswal, M., Vangapandu, T. and Mandal, P. 2016. Impact of integrated nutrient management on soil fertility status of tissue culture banana CV. Grand Naine. International J. Agril. Sci. and Res. 6: 283-86 .

3. Gogai, D., Kotoky, U. and Hazarika, S. 2004. Effect of biofertilizers on productivity and soil characteristics in banana. Indian J. Hortic. 61: 354-56.

4. Hazarika, T.K., Nautiyal, B.P. and Bhattacharya, R.K. 2011. Effect of INM on productivity and soil characteristics of tissue cultured banana cv. Grand Naine in Mizoram, India. Progressive Hortic. 43: 30–35.

5. Jackson, M.L. 1973. Soil Chemical analysis, Prentice Hall of India Pvt. Ltd. New Delhi. 6. Kholer, J., Caravaca, F., Carrasco, L. and Roldan, A. 2007. Interactions between a plant growth promoting rhizobacterium, an AM fungus and a phosphate solubilising fungus in the rhizosphere of Lactuca sativa. App, Soil Ecol. 35: 480-87.

7. Lindsay, W. L. and Norvell, W. A. 1978. Development of DTPA soil test for zinc, iron, manganese and copper. Soil Sci. Soc. of Am. J., 42: 421-429.

8. Mir, M., Hassan, G. I., Mir, A., Hassan, A. and Sulaimani, M. 2013. Effects of bio-organics and chemical fertilizers on nutrient availability and biological properties of pomegranate orchard soil. African J. Agril. Res. 8: 4623-27.

9. Mohandas, S. 1996. In: Proc. conference on challenges for banana production and utilization in 21st century. National Research Centre on Banana. September 24-25: 883-87.

10. Moreira, F. M., Cairo, P. A. R., do Nascimento, L. R., Rosa, R. C. C. C., de Souza Rocha, L. and Haddad, F. 2023. Optimal growth and N use efficiency enhancements by growth-promoting rhizobacteria in seedlings banana under N2 deficiency. Biocatal. Agric. Biotechnol., 50: 102734.

11. Olsen, S. R., Cole, C. V., Watnabe, F. S and Dean, L. A. 1954. Estimation of available phosphorus in soil by extracting with sodium bicarbonate. U.S. Department of Agriculture Circular 939.

12. Pafli G. 1965. Relations between abundant N supply and amino acid concentration on leaves of rice plants. Plant Soil 23:275-84.

13. Parr, J.F. and Papendick, R.I. 1978. Factor affecting decomposition of crop residues by micro organisms. In: Crop residue management System (ed. Swchwald, W. R.). ASA, CSSSA, USA. 101-129.

14. Patel, V.B., Barman, K. and Tiwari, D.K. 2014. Nutritional disorders and theirs management strategies. Indian J. Hortic. 563-92.

15. Piper, C. S., 1966. Soil & plant analysis. Academic press, New York, 367. 16. Ranjha, M. M. A. N., Irfan, S., Nadeem, M. and Mahmood, S. 2022. A comprehensive review on nutritional value, medicinal uses, and processing of banana. Food Rev. Int. 38: 199-225.

17. Shivakumar, B. S., Dharmatti, P. R. and Channal, H. T. 2012. Effect of organic cultivation ofapaya on yield, economics and soil nutrient status. Karnataka J. Agril. Sci. 25: 488-92.

18. Smith, W.H., K.L. Campbell, W.D. 1994. Graham and A.B. Bottcher Beneficial uses of composts in Florida. Proc. of the Second Conference, April, 247-253 USA. (C.F. CAB Abst. 9619-09912.

19. Srivastava, A. K., Singh, J. and Singh, H. K. 2014. Studies on integrated nutrient management (INM) in leaf and soil nutrient status of papaya (Carica papaya L.) cv. CO-7. The Asian J. Hortic.9: 453-58 .

20. Subbiah, B. V. and Asija, C. L. 1956. A rapid procedure for the estimation of available nitrogen in soils. Curr. Sci. 25-32.

21. Umesh, K.C., Krishnappa and Bagyaraj D.J. 1998. Interaction of burrowing nematode, Radopholus similis (Cobb, 1893) Thorne 1949 and VA mycorrhizae Ghmus fasciculatum (Thaxl) Gerd and Trappe in banana (Musa acuminata colla). Indian J. Nematology, 18: 6-11.

22. Wani, S.P. 1990. Inoculation with associative nitrogen fixing bacteria: Role in cereal grain production improvement, lndian. J. Microl. 30:366-93.

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